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Computer Networks24-1 Chapter 24. Congestion Control and Quality of Service 23.1 Data Traffic 23.2 Congestion 23.3 Congestion Control 23.4 Two Examples 23.5 Quality of Service 23.6 Techniques to Improve QoS 23.7 Integrated Services 23.8 Differentiated Services 23.9 QoS in Switched Networks
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Computer Networks24-2 Traffic Descriptors Traffic descriptor are qualitative values that represent a data flow Average data rate = amount of data/time Peak data rate: the max. data rate of the traffic Max. burst size: the max. length of time the traffic is generated at the peak rate Effective bandwidth: bandwidth that the network needs to allocate for traffic flow
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Computer Networks24-3 Traffic Profiles Constant-bit-rate (CBR) Variable-bit-rate (VBR) Bursty
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Computer Networks24-4 Congestion Congestion: the load on the network is greater than the capacity of the network Congestion control: the mechanisms to control the congestion and keep the load below the capacity Congestion occurs because routers and switches have queues- buffers that hold the packets before and after processing The rate of packet arrival > packet processing time input queue longer The packet departure time < packet processing time output queue longer
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Computer Networks24-5 Network Performance-1 Packet delay versus network load Delay id composed of propagation delay and processing delay
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Computer Networks24-6 Network Performance-2 Throughput versus network load Throughput: the number of packets passing through the network in a unit of time
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Computer Networks24-7 Congestion Control Congestion control refers to techniques and mechanisms that can either prevent congestion, before it happens, or remove congestion, after it has happened. Two broad categories: open-loop congestion control (prevention) and closed-loop congestion control (removal).
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Computer Networks24-8 Open Loop Control: Prevention Retransmission policy and timers must to be designed to optimize efficiency and at the same time prevent congestion Window policy: Selective Repeat is better than Go-back-N Acknowledgement policy: does not ACK every packet Discard policy: prevent congestion and at the same time may not harm the integrity of the transmission Admission policy: Switch first check the resource requirement of a flow before admitting it to the network
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Computer Networks24-9 Closed-Loop Congestion Control: Removal Back pressure: inform the previous upstream router to reduce the rate of outgoing packets if congested Choke point: a packet sent by a router to the source to inform it of congestion, similar to ICMP ’ s source quench packet Implicit signaling: slow down its sending rate by detecting an implicit signal concerning congestion Explicit signaling: Backward signaling / Forward signaling
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Computer Networks24-10 Congestion Control in TCP TCP assumes that the cause of a lost segment is due to congestion in the network. If the cause of the lost segment is congestion, retransmission of the segment does not remove the cause—it aggravates it. The sender has two pieces of information: the receiver-advertised window size and the congestion window size TCP Congestion window –Actual window size = minimum (rwnd, cwnd) (where rwnd = receiver window size, cwnd = congestion window size)
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Computer Networks24-11 TCP Congestion Policy Based on three phases: slow start, congestion avoidance, and congestion detection Slow Start: Exponential Increase –In the slow-start algorithm, the size of the congestion window increases exponentially until it reaches a threshold
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Computer Networks24-12 TCP Congestion Policy Congestion Avoidance: Additive Increase –The size of the congestion window increases additively until congestion is detected
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Computer Networks24-13 TCP Congestion Policy Congestion Detection: Multiplicative Decrease An implementation reacts to congestion detection in one of two ways: –If detection is by time-out, a new slow start phase starts –If detection is by three ACKs, a new congestion avoidance phase starts Summary
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Computer Networks24-14 Congestion Example
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Computer Networks24-15 Congestion Control: Frame Relay Congestion avoidance: BECN and FECN Backward explicit congestion notification (BECN) Forward explicit congestion notification (FECN)
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Computer Networks24-16 Four Cases of Congestion
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Computer Networks24-17 Quality of Service (QoS) Flow Characteristics: –Reliability –Delay –Jitter: the variation in delay for packets belonging to the same flow –Bandwidth Flow Classes: –Based on the characteristics, we can classify flows into groups, with each group having similar levels of characteristics
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Computer Networks24-18 QoS Techniques Scheduling: FIFO queuing, priority queuing, and weighted fair queuing Traffic shaping: Leaky bucket, token bucket Resource reservation Admission control: accept or reject a flow based on predefined parameters called flow specification FIFO queuing
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Computer Networks24-19 Priority Queuing Packets are first assigned to priority class. Each priority class has its own queue The packets in the highest-priority queue are processed first
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Computer Networks24-20 Weighted Fair Queuing The queues are weighted based on the priority of the queues The system processes packets in each queue in a round-robin fashion with the number of packets selected from each queue based on the weight
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Computer Networks24-21 Traffic Shaping: Leaky Bucket Traffic shaping: to control the amount and the rate of the traffic sent to network Two techniques: leaky bucket and token bucket A leaky bucket algorithm shapes bursty traffic into fixed-rate traffic by averaging the data rate. It may drop the packets if the bucket is full.
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Computer Networks24-22 Leaky Bucket Implementation Algorithm for variable-length packets: 1)Initialize a counter to n at the tick of the clock 2)If n is greater than the size of the packet, send packet and decrement the counter by the packet size. Repeat this step until n is smaller than the packet size 3)Reset the counter and go to step 1
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Computer Networks24-23 Token Bucket The token bucket allows bursty traffic at a regulated maximum rate. Token bucket + leaky bucket: leaky bucket after token bucket
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Computer Networks24-24 Integrated Services (IntServ) Integrated Services is a flow-based QoS model designed for IP Signaling: Resource Reservation Protocol (RSVP) Flow specification: –Rspec (resource specification) defines the resource that the flow needs to reserve –Tspec (traffic specification) defines the traffic characterization of the flow Admission: a router decides to admit or deny the flow specification Service classes: guaranteed service and controlled-load service –Guaranteed service class: guaranteed minimum end-to-end delay –Controlled-load service class: accept some delays, but is sensitive to an overloaded network and to the danger of losing packets
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Computer Networks24-25 RSVP In IntServ, the resource reservation is for a flow, a kind of virtual circuit network out of the IP RSVP is a signaling protocol to help IP create a flow and consequently make a resource reservation RSVP is a signaling system designed for multicasting Receiver-based reservation RSVP message: Path and Resv Path message: from sender to all receivers
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Computer Networks24-26 Resv Messages Make a resource reservation from each receiver to sender Reservation Merging
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Computer Networks24-27 Reservation Styles Wild card filter style: a single reservation for all senders Fixed filter style: a distinct reservation for each flow Shared explicit style: a single reservation which can be shared by a set of flow Soft state instead of hard state (such as ATM, Frame Relay) Reservation information to be refreshed periodically IntServ problem: scalability and service-type limitation
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Computer Networks24-28 Differentiated Service (Diffserv) Differentiated Services is a class-based QoS model designed for IP. Diffserv handles the shortcomings of IntServ Main differences between Diffserv and Intserv –Main processing is moved from the core to the edge (scalability) –The per-flow is changed to per-class flow service (service-type limitation) DS field –DSCP (DS Code Point) is a 6-bit field that define per-hop behavior (PHB) –CU (currently unused) is 2-bit
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Computer Networks24-29 Per-hop Behavior (PHB) Diffserv defines three PHBs DE PHB (default PHB) is the same as best-effort delivery EF PHB (expedited forwarding PHB) provides the following services: –Low loss, low latency, ensured bandwidth AF PHB (assured forwarding PHB) delivers the packet with a high assurance as long as the class traffic does not exceed the traffic profile of the node
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Computer Networks24-30 Traffic Conditioner Meter checks to see if the incoming flow matches the negotiated traffic profile Marker can re-mark a packet with best-effort delivery or down-mark a packet based on the meter information; no up-mark Shaper use the meter information to reshape the traffic if not compliant with the negotiated profile. Dropper, like a shaper with no buffer, discard packets if the flow severely violates the profile
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Computer Networks24-31 QoS in Switched Network QoS in Frame Relay –Four different attributes are used to control traffic –Access rate, committed burst size (Bc), committed information rate (CIR), and excess burst size (Be) –Committed Information Rate (CIR) = B c /T bps
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Computer Networks24-32 User Rate in Relation to Bc and Bc + Be How can a user send bursty data ?
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Computer Networks24-33 QoS in ATM QoS in ATM is based on the class, user related attributes, and network-related attributes Classes: CBR, VBR, ABR, and UBR –CBR (constant): real-time audio or video over dedicated T-line –VBR (variable): compressed audio or video, VBR-RT, VBR-NRT –ABR (available): bursty application –UBR (unspecified): best-effort delivery
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Computer Networks24-34 QoS in ATM User-related attributes: –SCR (sustained cell rate): average cell rate over a long time interval –PCR (peak cell rate) –MCR (minimum cell rate) –CVDT (cell variation delay tolerance) Network-related attributes: –CLR (cell loss ratio) –CTD (cell transfer delay) –CDV (cell delay variation) –CER (cell error ratio)
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